棉蚜抗药性及其化学防治

棉蚜［Aphis gossypii（Glover）］属半翅目蚜科,是一种世界性的害虫,主要通过取食植物汁液和传播病毒给农业生产造成严重损失。长期以来,棉蚜的防治一直以化学防治为主,棉蚜对有机氯、有机磷、氨基甲酸酯、拟除虫菊酯、新烟碱类等多种杀虫药剂已经产生了抗性。本文主要从棉蚜抗药性发展历史、抗药性机制以及棉蚜的化学防治等方面进行论述,期望能为农业生产上延缓棉蚜抗药性产生、有效治理棉蚜提供指导。     

6种农药对瓜蚜的毒力测定及田间药效

为了筛选防治西瓜瓜蚜的有效药剂,用6种药剂进行了室内毒力测定和田间药效试验。结果表明,1.8%阿维菌素EC对瓜蚜的毒力最高,60g/L乙基多杀菌素SC毒力最低,48hLC50分别为0.38mg/L和2 225.63mg/L。6种药剂毒力大小依次为阿维菌素溴氰虫酰胺氟啶虫胺腈啶虫脒吡虫啉乙基多杀菌素。田间试验结果表明,1.8%阿维菌素EC 3 000倍、10%溴氰虫酰胺OD 2 000倍、22%氟啶虫胺腈SC 4 000倍对瓜蚜速效性及持效性均较好,3~14d防效均达到90%以上,防效差异不显著;20%啶虫脒WP 3 000倍和10%吡虫啉WP 3 000倍速效性及持效性均较差,1d防效分别为31.31%和6.66%,14d防效分别为57.39%和47.80%;60g/L乙基多杀菌素SC 1 000倍防效最差,药后14d的最高防效仅为34.70%。推荐田间轮换使用阿维菌素、溴氰虫酰胺、氟啶虫胺腈防治瓜蚜。     

Efficacy of plant metabolites of imidacloprid against Myzus persicae and Aphis gossypii (Homoptera: Aphididae)

The metabolism of the chloronicotinyl insecticide imidacloprid is strongly influenced by the method of application. Whilst in foliar application most of the residues on the leaf surface display unchanged parent compound, most of the imidacloprid administered to plants by soil application or seed treatment is metabolized more or less completely, depending on plant species and time. The present study revealed that certain metabolites of imidacloprid which have been described in crop plants are highly active against aphid pests in different types of bioassays. Some of these metabolites showed a high oral activity against the green peach aphid (Myzus persicae), and the cotton aphid (Aphis gossypii). The aphicidal potency of the metabolites investigated was weaker in aphid dip tests than in oral ingestion bioassays using artificial double membranes. The most active plant metabolite was the imidazoline derivative of imidacloprid. The LC₅₀ values of this metabolite for M. persicae and A. gossypii in oral ingestion bioassays were in the lower ppb-range, i.e. 0·0044 and 0·0068 mg litre^-1, respectively. Most of the other reported metabolites showed much weaker activity. Compared to imidacloprid, the imidazoline derivative showed superior affinity to housefly (Musca domestica) head nicotinic acetylcholine receptors, while all other metabolites were less specific than imidacloprid. It seems possible that, after seed treatment or soil application, a few of the biologically active metabolites arising are acting in concert with remaining levels of the parent compound imidacloprid, thus providing good control and long-lasting residual activity against plant-sucking pests in certain crops. © 1998 SCI.     

棉蚜抗药性现状及治理策略

棉蚜Aphis gossypii Glover是农业生产上最重要的害虫之一。化学杀虫剂一直以来都是棉蚜综合防治体系中的重要组成部分, 但化学杀虫剂的不合理使用导致棉蚜对多种杀虫剂均产生了高水平抗性。现有研究表明, 靶标位点突变、解毒酶基因的过表达以及某些肠道共生菌丰度的变化是导致棉蚜对杀虫剂产生抗性的主要机制。针对棉蚜抗性发展现状及其抗药性机制, 制定科学合理的抗性治理策略, 是充分发挥化学防治的优势、实现棉蚜可持续治理的关键。本文主要从棉蚜的抗药性现状、抗性机制和抗性治理策略3个方面对近10多年的主要进展进行了综述, 旨在为棉蚜抗药性长效治理和科学施策提供理论依据。     

棉花抗蚜性与可溶性糖含量的关系

为探讨可溶性糖含量与棉花抗蚜性的关系,在室内人工接蚜为害和田间自然蚜群两种条件下,测定不同抗蚜性棉花品种受棉蚜为害后叶片中可溶性糖含量及其对棉蚜生长发育和繁殖的影响。结果表明:未受棉蚜为害时,抗性品种中可溶性糖含量高于感性品种,棉蚜为害胁迫后,抗蚜棉花品种可溶性糖含量升高,感蚜品种的可溶性糖含量降低。棉蚜的生长发育和繁殖与棉花叶片中可溶性糖含量呈显著的相关,可溶性糖与棉蚜若蚜历期呈正相关,与内禀增长率呈负相关。本研究说明可溶性糖含量对棉花的抗蚜性有一定的影响,转基因棉可溶性糖含量低于常规棉品种可能是导致非目标害虫棉蚜猖獗的原因之一。     

金龟子绿僵菌CQMa421对棉蚜、绿盲蝽的田间防效

棉花是我国重要的经济作物, 虫害严重制约了棉花生产, 造成棉农的经济损失。目前, 化学杀虫剂仍是防治棉花虫害的主要手段, 长期使用化学杀虫剂导致棉蚜Aphis gossypii、绿盲蝽Apolygus lucorum产生抗药性, 降低防治效果。本研究使用80亿孢子/mL金龟子绿僵菌CQMa421可分散油悬浮剂防治棉蚜、绿盲蝽, 室内生测结果表明, 金龟子绿僵菌CQMa421能有效侵染棉蚜和绿盲蝽, 随着浓度的升高, 对棉蚜和绿盲蝽的毒力增强。〖JP+2〗田间试验结果表明, 该药剂能有效控制棉花主要害虫棉蚜和绿盲蝽。采用1 200 mL/hm2用量, 药后14 d对棉蚜的防效达94.42%; 采用1 350 mL/hm2用量, 药后14 d对绿盲蝽的防效分别达到87.25%(新疆), 91.62%(湖北)。     

不同体色棉蚜的体色变化规律与繁殖特征

黄、绿两种体色棉蚜在不同温度下的体色变化规律表明,绿色干母的黄色后代在18℃和22℃下经1代分化后全部稳定产绿色个体,而在26℃下则分化为绿色和黄色两种个体。棉田采集的黄、绿个体在不同温度下的体色筛选表明,黄色个体在18℃和21℃下能分化出黄色和绿色两种个体,但在24℃和27℃下保持黄色不变;而绿色个体在18℃和21℃的低温下连续4代基本上保持绿色不变,24℃和27℃的高温下却全分化为黄色。棉蚜在棉株新叶上的绿色蚜比例明显高于老叶。田间黄、绿两种体色棉蚜在相同温度下的产仔前期、平均寿命无显著差异,但平均产仔量表现为绿色蚜高于黄色蚜,并在26℃下差异显著。     

5种药剂对枸杞棉蚜室内毒力及田间防效

为了明确5种药剂对枸杞棉蚜的适宜施药剂量,开展了室内毒力测定和田间药效试验.结果 表明,1％甲维盐EC对枸杞棉蚜的毒力最高,50％噻虫嗪WG毒力最低,24 h LC50分别为2.44 mg/L和1875.69 mg/L.5种药剂毒力大小依次为甲维盐＞啶虫脒＞吡蚜酮＞呋虫胺＞噻虫嗪.田间试验结果表明,随着施药时间的延长,...     

人工释放普通草蛉田间防治棉蚜效果研究

于2013年利用人工繁殖的普通草蛉对新疆哈密地区棉田的棉蚜进行生物防治,结果表明,棉田释放密度为30、40、50和60粒/株的普通草蛉卵5~13d后,与对照相比,各处理棉田的棉蚜数量均呈不断下降趋势,与对照相比校正防效不断升高。其中释放卵50和60粒/株10~13d后,校正防效可达69.88%~78.73%,取得了较好的防治效果。本研究通过小区试验研究人工繁殖的普通草蛉对棉田棉蚜的生物防治效果,为新疆棉田棉蚜的生物防治研究提供了理论基础和指导依据。     

Toxicities and sublethal effects of seven neonicotinoid insecticides on survival, growth and reproduction of imidacloprid-resistant cotton aphid, Aphis gossypii

BACKGROUND: Imidacloprid has been a major neonicotinoid insecticide for controlling Aphis gossypii (Glover) (Homoptera: Aphididae) and other piercing–sucking pests. However, the resistance to imidacloprid has been recorded in many target insects. At the same time, cross‐resistance of imidacloprid and other insecticides, especially neonicotinoid insecticides, has been detected. RESULTS: Results showed that the level of cross‐resistance was different between imidacloprid and tested neonicotinoid insecticides (no cross‐resistance: dinotefuran, thiamethoxam and clothianidin; a 3.68–5.79‐fold cross‐resistance: acetamiprid, nitenpyram and thiacloprid). In the study of sublethal effects, imidacloprid at LC₂₀ doses could suppress weight gain and honeydew excretion, but showed no significant effects on longevity and fecundity of the imidacloprid‐resistant cotton aphid, A. gossypii. However, other neonicotinoid insecticides showed significant adverse effects on biological characteristics (body weight, honeydew excretion, longevity and fecundity) in the order of dinotefuran > thiamethoxam and clothianidin > nitenpyram > thiacloprid and acetamiprid. CONCLUSION: The results indicated that dinotefuran is the most effective insecticide for use against imidacloprid‐resistant A. gossypii. To avoid further resistance development, the use of nitenpyram, acetamiprid and thiacloprid should be avoided on imidacloprid‐resistant populations of A. gossypii. Copyright © 2011 Society of Chemical Industry     

干旱胁迫对棉花上棉蚜种群增长影响的评价方法

为建立干旱胁迫对棉花害虫种群增长影响的评价方法,本研究设置1%、3%和5%聚乙二醇6000(PEG-6000)溶液处理4叶期棉花苗,分别模拟轻度、中度、重度干旱胁迫,系统测定并比较分析了棉花植株生理特性及棉蚜种群密度。结果显示：随着PEG-6000浓度增加,棉花地上部分生物量和叶片相对含水量逐渐降低,而棉花植株上的棉蚜种群增长能力和平均密度明显下降。分析表明,干旱胁迫不利于棉花植株生长,进而对棉蚜种群增长产生负面影响。本研究为后续系统研究干旱胁迫对棉花-害虫-天敌互作关系的长期影响及其机制奠定了重要基础。     

The efficacy of a petroleum spray oil against Aphis gossypii Glover on cotton. Part 1: mortality rates and sources of variation

Petroleum spray oils (PSOs) kill insect pests on contact, and the composition of modern PSOs is substantially different from the ones introduced earlier. The effects of direct application of a new nC24 PSO on the cotton aphid, Aphis gossypii Glover, were therefore determined. This covered not only aphid mortality rates but also the way in which the oils affected aphid behaviour at the time of contact with the oil. Direct application of the nC24 oil proved to be highly effective in controlling A. gossypii at a range of concentrations between 1 and 10% v/v. The oil killed cotton aphids quickly, with most of the mortality occurring within the first 10 min of spraying. The fast killing action of the oils prevented any behavioural responses by the aphids. Aphids killed by the oils became flaccid and their legs and antennae extended horizontally relative to the body axis. With time, their cuticle became very shiny and began to darken. The quick death of the aphids suggested a contact mode of action of the oils, an interpretation supported by the lack of any negative effect on aphids not initially reached by the oils. However, those aphids not hit by the oils, but that subsequently encountered oil-treated areas when they moved elsewhere, also died, indicating that the oil deposits are also toxic to the aphids. The mode of action of the oil thus seems to be versatile, and the means by which it kills the aphids may be more complex than anoxia, which is the widely claimed mechanism attributed to PSOs. This oil now needs to be tested for any possible indirect effects on the cotton aphid (e.g. through its host-plant acceptance behaviour). The implications of the present findings for cotton aphid control and assessment of PSO efficacy in the field are discussed.     

Susceptibility of standard clones and European field populations of the green peach aphid, Myzus persicae, and the cotton aphid, Aphis gossypii (Hemiptera: Aphididae), to the novel anthranilic diamide insecticide cyantraniliprole

BACKGROUND: Parthenogenetic clones of the green peach aphid, Myzus persicae (Sulzer), and the cotton aphid, Aphis gossypii Glover, were tested with the anthranilic diamide insecticide cyantraniliprole (i.e. DuPont^? Cyazypyr^?) in systemic‐uptake bioassays to investigate potential for cross‐resistance conferred by mechanisms of insecticide resistance to organophosphates, carbamates and pyrethroids and, in the case of M. persicae, reduced sensitivity to neonicotinoids. These data were compared with the response of field samples of M. persicae and A. gossypii collected from around Europe. RESULTS: Cyantraniliprole was not cross‐resisted by any of the known insecticide resistance mechanisms present in M. persicae or A. gossypii. The compound was equally active against resistant and susceptible aphid strains. The responses of the M. persicae field samples were very consistent with a maximum response ratio of 2.9 compared with a standard laboratory clone. The responses of the A. gossypii field samples were more variable, although a majority of the responses were not statistically different. CONCLUSION: Cyantraniliprole is currently the only anthranilic diamide (IRAC MoA 28) insecticide targeting aphid species such as M. persicae and A. gossypii. There is no evidence to suggest that the performance of this compound is affected by commonly occurring mechanisms that confer resistance to other insecticide chemistries. Cyantraniliprole is therefore a valuable tool for managing insecticide resistance in these globally important pests. Copyright © 2011 Society of Chemical Industry     

The efficacy of a petroleum spray oil against Aphis gossypii Glover on cotton. Part 2: indirect effects of oil deposits

The primary mode of action of petroleum spray oils (PSOs) on pest insects is through direct contact. Indirect effects are, however, also possible, and deposits of the oils may influence pest populations by killing insects and/or by influencing their behaviour. The indirect effects of deposits of a new nC24 oil against the cotton aphid, Aphis gossypii Glover, were therefore determined. The effects of oil deposits on the acceptance of cotton as host plant by the aphids were assessed, as well as aphid mortality rates and their success in the establishment of colonies. The efficacy of deposits of a heavier oil (nC27) was also evaluated. Deposits of PSO were toxic to A. gossypii and remained effective until 8 days after spraying. Mortality decreased with time, so that, the older the deposit, the lower was the mortality. Significantly higher aphid mortalities were achieved on younger leaves than on mature ones. Thus, leaf age proved a significant factor in the efficacy of the deposits. Consecutive prophylactic applications (at 9 day intervals) did not have a cumulative effect, and their killing power proved to be independent of one another. Thus, applying the oil prior to aphid infestations would confer only minimal protection. The mortality inflicted by the deposits was not improved by increasing the molecular mass of the oil used (nC27 oil), but the toxic life of the oil deposit was increased. Oil deposits did not deter alates from landing on oil-sprayed plants. Oil deposits did, however, affect subsequent alate and nymphal survival, and thus the establishment of aphid colonies. The impact that the oils could have on the longer-term development of aphid populations in the field was thus demonstrated. First- and second-instar nymphs were the most susceptible life stages, with > 50% mortality compared with < 10% for the other stages. These nymphs did not show the typical signs of oil-induced mortality observed in aphids killed by direct oil applications, which suggests an alternative mode of action to that of the directly applied oil. Anoxia does not seem to be involved in either process, and alternative modes of action of the oil deposits are discussed. The implications of these findings for cotton aphid control are also considered, primarily in relation to the timing and frequency of oil application.     

Evaluation of the biocontrol potential of various Metarhizium isolates against green peach aphid Myzus persicae (Homoptera: Aphididae)

BACKGROUND: Twenty‐three isolates of Metarhizium anisopliae (Metschnikof) Sorokin and M. acridum (Driver & Milner) JF Bischoff, Rehner & Humber from non‐aphid host insects around the globe were evaluated for their aphid biocontrol potential, which is not well known. RESULTS: The apterous adults of green peach aphid Myzus persicae (Sulzer) were exposed to the fungal sprays of 11.5, 99 and 1179 conidia mm^?2 and blank control in three leaf‐dish bioassays. All the tested isolates except one were proven to be infective to the aphid species at 21 ± 1 °C and 14:10 h light:dark photoperiod, causing corrected mortalities of 10.1–95.3% at the high spore concentration. The data from ten isolates causing > 50% mortality at the high concentration were found to fit a time–concentration–mortality model well, yielding parameters for the estimates of their LC₅₀ and LT₅₀ that vary with post‐spray time and spore concentration respectively. Four isolates of M. anisopliae (ARSEF 759, 4132, 2080 and 576) had LC₅₀ values of 44–80 conidia mm^?2 on day 8 and LT₅₀ values of 4.9–6.8 days at 100 conidia mm^?2, with 91–98% of the killed aphids being well mycotised after death. CONCLUSION: The Metarhizium infectivity to M. persicae differs greatly among the tested isolates. The four mentioned isolates with desired virulence and sporulation potential are excellent candidates for microbial control of aphids. Copyright © 2010 Society of Chemical Industry     

Control of the cowpea aphid, Aphis craccivora Koch (Homoptera: Aphididae), in cowpea, Vigna unguiculata (L.) Walp.

Cowpea, Vigna unguiculata (L.) Walpers, is a major dietary staple in tropical Africa where it is most often cultivated. The production is, however, greatly hampered by severe infestation and damage by insect pests including the cowpea aphid, Aphis craccivora Koch. The damage and bionomics of the aphid are briefly introduced. Chemical, cultural, physical and biological methods, and use of plant resistance for A. craccivora control in cowpea are reviewed. Finally, prospects for integrated pest management are discussed     

龟纹瓢虫对烟粉虱和棉蚜取食选择及适合度比较研究

基于近年来棉田烟粉虱数量上升并与棉蚜呈混合或交替发生的态势,比较研究了棉田优势捕食性天敌龟纹瓢虫对棉蚜和烟粉虱的取食偏好和食物适合度.结果显示,龟纹瓢虫不同虫态对烟粉虱若虫和棉蚜均具有较好的捕食作用;在棉蚜和烟粉虱若虫不同比例共存的情况下,龟纹瓢虫成虫均显著地偏好取食棉蚜;空间增大和蚜虫数量不足有助于增加龟纹瓢虫成虫对烟粉虱若虫的控制效应.取食烟粉虱若虫和棉蚜若虫的龟纹瓢虫幼虫均能完成生长发育,对后代成虫性比亦无影响;但取食烟粉虱若虫的龟纹瓢虫幼虫期延长3d,死亡率升高5.45倍,幼虫和成虫体重明显减轻;成虫取食烟粉虱若虫不能满足其产卵的营养需求.综合分析认为,棉田具有一定数量(经济域值以下)的棉蚜,有利于增加龟纹瓢虫对烟粉虱的控制效应.